CN1871368A

CN1871368A - Heat-resistant cast steel for reaction tube for hydrogen production being excellent in aging ductility and creep rupture strength

Info

Publication number: CN1871368A
Application number: CNA2004800307832A
Authority: CN
Inventors: 高桥诚; 桥本国秀
Original assignee: Kubota Corp
Current assignee: Kubota Corp
Priority date: 2003-10-20
Filing date: 2004-10-18
Publication date: 2006-11-29
Anticipated expiration: 2024-10-18
Also published as: KR20060089236A; EP1679387B1; EP1679387A4; CA2540315A1; WO2005038066A1; CN100564566C; KR101190997B1; JPWO2005038066A1; US20070034302A1; JP4632954B2; US7442265B2; CA2540315C; EP1679387A1; HK1097577A1; ES2395726T3

Abstract

A heat-resistant cast steel, which has a chemical composition that C: 0.1 to 0.5 %, Si: 2.5 % or less, Mn: 2.5 % or less, Cr: 15 to 26 %, Ni: 8 to 23 %, Nb: 0.1 to 1.2 %, Ti: 0.01 to 1.0 %, Ce: 0.001 to 0.15 %, N: 0.06 % or less, and the balance: substantially Fe, with the proviso that a P value calculated from the formula: P = 89.3 - 78.4C + 0.1Si - 5.7Mn - 1.7Cr + 0.01Ni + 2Nb + 5.3Ti -36.5N -50.8Ce is 20 to 45. Optionally, the cast steel may further comprise one or more of 0.001 to 0.05 % of B, 0.01 to 0.5 % of Zr and 0.001 to 0.15 % of La, and/or 0.01 to 0.3 % of Al. In some cases, the composition is preferably limited to C: 0.1 to 0.3 %, Cr: 15 to 20 % and Ni: 8 to 18 %. The above heat-resistant cast steel is excellent in strength at a high temperature, aging ductility, fatigue characteristics and the like, and thus can be suitably used as a material of a steam reforming reaction tube, for use in an apparatus for producing hydrogen for a fuel cell and the like.

Description

The heat-resistant cast steel for reaction tube for hydrogen production that aging ductility and creep-rupture strength are good

Technical field

The present invention relates to as being that hydro carbons such as fuel, Sweet natural gas are raw material, generate hydrogen or be that the hydrogen manufacturing of synthesis gas of main component is with the tube material of reaction tubes, the Heat resisting cast steel that aging ductility and creep-rupture strength are good with hydrogen through the reaction of water vapour upgrading with oil.

Background technology

In water vapour upgrading stove as the device for producing hydrogen of refining of petroleum factory, sending into oil in reaction tubes is fuel (petroleum naphtha, raw gasoline etc.) and the mixed gas of water vapour, high temperature, pressurization (temperature: about 700～900 ℃, pressure: about 1-3MPa) under the condition, by catalyzer carry out the upgrading reaction [ ] to generate with hydrogen be the synthesis gas of main component.This upgrading reaction tubes requires to have hot strength, high temperature creep strength, enables to stand the long-term continuous operation under the high-temperature pressurizing condition.In the past, using the high Cr-Ni of high-carbon as precipitation strength type alloy as this tube material is Heat resisting cast steel.Specifically, SCH22 (0.4C-25Cr-20Ni-Fe) be the 1st generation material, then use 1N519 (0.3C-24Cr-24Ni-1.5Nb-Fe) be the 2nd generation material, developed Nb again with trace, alloyings such as Ti and the HP-Nb that obtains, the Ti material (0.5C-25Cr-35Ni-Nb, Ti-Fe) wait the microalloying material as the 3rd generation material up to now.

Patent documentation 1: special public clear 55-47105 communique

Patent documentation 2: special public clear 57-40900 communique

Patent documentation 3: the spy opens flat 5-239599 communique

In recent years, requiring the cry of clean energy to increase as environmental pollution control measure, is that the fuel cell of fuel is gazed at hydrogen, for example is considered to be hopeful as the propulsion source of automobile etc. etc., and developing as small-sized distributed power source etc., a part is just in practicability.Corresponding therewith, device for producing hydrogen as fuel cell being supplied with hydrogen removes petroleum naphtha, outside the liquefied petroleum gas (LPG) (LPG) etc., fall over each other to develop gas (LNG), hydro carbons such as alcohols, kerosene, diesel oil are the small-sized device for producing hydrogen of raw material, type device for producing hydrogen (so-called " hydrogen station " etc.) on the spot.

Fuel cell reacts with the water vapour upgrading of device for producing hydrogen, if compare with the operational condition of large-scale plant in the refining of petroleum factory, then under lower low temperature, low pressure (temperature: about 750～800 ℃, pressure: below about 1MPa), carry out, but fuel cell is big with the change of the electricity needs at night by day, so the running requirements of device for producing hydrogen repeats the load change of upgrading reaction tubes according to electricity needs.If repeat such load change every day, then overlapping accumulation creep of reaction tubes and fatigue become the former solid of fatigure failure.Therefore, fuel cell requires hot strength, creep rupture strength at high temperatures etc. with the upgrading reaction tubes of device for producing hydrogen, requires material of excellent fatigue characteristics simultaneously.The high Cr-Ni of high C of the aforementioned precipitation strength type that uses in the large-scale plant of refining of petroleum factory is that Heat resisting cast steel is the material that possesses the necessary hot properties of continuous operation (hot strength creep-rupture strength) under the High Temperature High Pressure, but the destructive aspect of desired aging ductility of the device for producing hydrogen of load change type and antifatigue existing problems can not guarantee steady in a long-term the use.In addition, use HK40 material etc. in the life-time service environment under the temperature range about 800 ℃, pointed σ separates out the embrittlement phenomenon that causes mutually also becomes problem.

Summary of the invention

The present invention seeks to solve relevant hydrogen manufacturing the problems referred to above with upgrading reaction tubes material, a kind of Heat resisting cast steel is provided, it not only keeps necessary thermotolerance, creep rupture strength at high temperatures in the environment for use of high temperature, pressurization as water vapour upgrading reaction tubes, and have concurrently be used to improve as fuel cell with device for producing hydrogen, repeat load change reaction tubes weather resistance stability, improved aging ductility and fatigue characteristic, and economy is better.

Heat-resistant cast steel for reaction tube for hydrogen production of the present invention is characterised in that, by quality %, comprise that C:0.1～0.5%, Si:2.5% are following, Mn:2.5% is following, Cr:15～26%, Ni:8～23%, Nb:0.1～1.2%, Ti:0.01～1.0%, Ce:0.001～0.15%, below the N:0.06%, all the other come down to Fe, and the parameter value P that represents with following formula [1] is 20～45.

P＝89.3-78.4C+0.1Si-5.7Mn-1.7Cr

+0.01Ni+2Nb+5.3Ti-36.5N-50.8Ce......[1]

Moreover each symbol of element in the formula [1] is represented the content (%) of this element.

Heat resisting cast steel of the present invention, go back the composition that contains any composite component of following (1)～(3) as required:

(1) is selected from B:0.001～0.05%, Zr:0.01～0.5%, more than a kind and even 2 kinds of La:0.001～0.15%.

(2)Al：0.01～0.3％

(3) be selected from B:0.001～0.05%, Zr:0.01～0.5%, La:0.001～0.15% more than a kind and even 2 kinds and Al:0.01～0.3%.

In addition, Heat resisting cast steel of the present invention can be to be limited in C:0.1～0.3% as required, and to Cr and Ni, is adjusted in the composition of Cr:15～20%, Ni:8～18% scope.

Heat resisting cast steel of the present invention with above-mentioned chemical constitution is owing to have chromium carbide (Cr in the matrix of austenite phase ₂₃C ₆) etc. the precipitation strength particle disperse the metal structure separate out, be reflected at necessary thermotolerance, creep rupture strength at high temperatures under the high temperature and high pressure environment so have the water vapour modifier of device for producing hydrogen, and the separating out of proeutectoid carbide under the long timeliness of high temperature is inhibited, in addition, do not use the HK40 material to refer to separate out the embrittlement that causes mutually as the σ of problem in the past yet, in secular use, can stably keep high-caliber stretching, extension as these effects.As the effect of improving of this aging ductility, can guarantee the fatigue characteristic that the thermal fatigue cycle multiple modifier reaction tubes that load change causes with device for producing hydrogen as fuel cell is necessary, be improved, thereby can improve the durable life-span.

Embodiment

Heat resisting cast steel of the present invention in order to ensure to thermotolerance, the hot strength of hydrogen manufacturing with the high temperature and high pressure environment of water vapour upgrading reaction, and is guaranteed the desired aging ductility of environment for use, the fatigue characteristic of load change type to be adjusted to following composition.Component content all is quality %.

C：0.1～0.5％

C when molten steel casting solidification and Nb be combined in crystal boundary and form the NbC crystallization and separate out, in addition, when reaction tubes used at high temperature, the C of solid solution combined with Cr in the matrix of austenite phase, separated out the fine chromium carbide (Cr of generation ₂₃C ₆).Precipitation strength effect as these can improve creep-rupture strength.As the modifier reaction tubes in the large-scale plant of the refining of petroleum factory of packing into, to measure requirement be more than 0.1% in order to obtain tolerate C that the creep-rupture strength that reaches 1000 ℃ of environments for use uses.Increase the C amount and can improve creep-rupture strength, but greater than 0.5% o'clock, along with the proeutectoid carbide (Cr that separates out in the long term high temperature use ₂₃C ₆) accumulating the ductility reduction that increase causes, fatigue characteristic are destroyed.Therefore, require the C amount is limited in below 0.5%.As fuel cell with load change multiple such as the device for producing hydrogen reaction tubes material of type device on the spot, for requiring fatigue characteristic are maintained higher levels of purposes, wish to be limited in 0.1%～0.3% scope.

Below the Si:2.5%

Si gives during for molten steel-deoxidizing and casting molten steel the mobile and element that adds.Reach 2.5% promptly fully for obtaining the content that this effect uses, greater than 2.5% o'clock, not only aging ductility reduced, and caused constituting that required weldability reduces in the pipe arrangement construction of modifier of device for producing hydrogen.So preferably 0.3～1.0%.

Below the Mn:2.5%

Mn is fixing (the forming MnS) by S in the deoxidation of molten steel and the molten steel, required weldability in the pipe arrangement construction of raising modifier, and help to improve the ductile element.For this effect, because Mn content is roughly saturated above 2.5% o'clock, so 2.5% is the upper limit.Preferably 0.4～1%.

Cr：15～26％

Cr guarantees hot strength and the necessary element of scale resistance.In order to ensure the desired creep-rupture strength that reaches 1000 ℃ high temperature environment for use of the reaction tubes of the large-scale device for producing hydrogen that can tolerate refining of petroleum factory, require to contain at least Cr 15%.Though hot strength and scale resistance increase with the Cr amount and improve, greater than 26% o'clock, scale resistance improved, and but then, caused aging ductility reduction and fatigue characteristic thereupon to reduce.The reduction of this fatigue characteristic is to follow the chromium carbide (Cr that separates out in the long-time use ₂₃C ₆) phenomenon that increase to produce of accumulation.Therefore, Cr content is the upper limit with 26%.In addition, as being the modifier reaction tubes of the device for producing hydrogen of type on the spot of object with the fuel cell, will maintain higher levels of environment for use with the corresponding fatigue characteristic of load change for requiring, expectation is limited in 15～20% scope.On the other hand, as the large-scale device for producing hydrogen of refining of petroleum factory, for the environment for use of continuous operation in high-temperature area, making Cr amount is that 20～26% high scope is favourable.

Ni：8～23％

Ni guarantees scale resistance and the necessary element of metal structure stability.Content is lower than at 8% o'clock, and difficulty is guaranteed the desired creep rupture strength at high temperatures of modifier reaction tubes, and the ductility after the timeliness reduces also increase in addition.Therefore, requiring Ni content is more than 8%.Yet Ni measures increase, and the C solid solution capacity in the matrix is reduced, and this has encouraged proeutectoid carbide in the actual use of reaction tubes (mainly is Cr ₂₃C ₆) separating out increment, the result causes aging ductility to reduce and the fatigue characteristic deterioration.So Ni content can not surpass 23%.In addition, as the modifier reaction tubes in the device for producing hydrogen on the spot used of the fuel cell of packing into, will maintain higher levels of environment for use with the corresponding fatigue characteristic of load change for requiring, expectation is 8～18% scope.On the other hand, as the large-scale device for producing hydrogen of refining of petroleum factory,, be that 18～23% high scope is favourable for purposes at the high-temperature area continuous operation.

Nb：0.1～1.2％

Nb combines with C and forms NbC, improves creep-rupture strength, and helps to improve aging ductility.This effect can obtain by containing 0.1% above Nb.But because increasing amount can cause scale resistance to reduce too much, so 1.2% is the upper limit.

Ti：0.01～1.0％

Ti has strong desoxydatoin, in addition, combines with C during solid solution in matrix, separates out to generate that fine (Nb, Ti) C double carbide is so play the raising creep-rupture strength.In order to obtain this effect, must at least 0.01%.But amount increases when too many, owing to along with the titanium oxide growing amount increases the degree of cleaning of infringement steel, cause quality to reduce, so be the upper limit with 1.0%.

Ce：0.001～0.15％

Ce helps to improve after the solid solution high temperature scale resistance in matrix.In order to obtain this effect, must contain more than 0.001%.Preferably more than 0.01%.Along with Ce amount increases and effect increases, but amount increases when too many, owing to generate a large amount of cerium oxides, destroys degree of cleaning, causes quality to reduce.So with 0.15% is the upper limit.

Below the N:0.06%

N is a gap solid solution type element, has the austenite that makes matrix and stablizes mutually, improves the effect of high temperature tensile strength.Yet, when the N increasing amount is too many, cause the aging ductility of the temperature province about 800 ℃ to reduce.Reducing in order to suppress this ductility, is the upper limit with 0.06%.Preferably 0.01～0.05.

B：0.001～0.05％

B separates out at crystal boundary and improves grain circle ductility, in addition, suppresses chromium carbide (Cr ₂₃C ₆) grain grow up (thickization), help the raising of creep-rupture strength.This effect obtains by the B that contains more than 0.001%.When yet 0.05% amount that surpasses increased, welding crack sensibility increased, and the pipe arrangement that the has damaged the upgrading reaction tubes necessary weldability of constructing is so be decided to be the upper limit to 0.05%.

Zr：0.01～0.5％

Zr separates out and generates MC type carbide, and the effect that improves creep-rupture strength is arranged.This effect obtains by the Zr that contains more than 0.01%.Amount increases and then to increase effect, but contain surpass 0.5% a large amount of the time, then because the growing amount increase of Zirconium oxide causes degree of cleaning to reduce and therefore cause ductility to reduce, so be decided to be the upper limit to 0.5%.

La：0.001～0.15％

La solid solution in matrix improves the high temperature scale resistance.This effect obtains by the La that contains more than 0.001%.Its effect increases with La amount, but amount increases when too many, causes degree of cleaning reduction and ductility reduction because the growing amount of lanthanum-oxides, so be decided to be the upper limit to 0.15%.Preferably 0.01%～0.1%.

Al：0.01～0.3％

Al is added as reductor, and the element that improves high temperature scale resistance effect is arranged simultaneously.This effect obtains by the Al that contains more than 0.01%.Yet, surpass 0.3% and contain in large quantities sometimes destroy the degree of cleaning of steel because aluminium is the increase of oxide compound growing amount, cause the ductility reduction, thus 0.3% as the upper limit.

The chemical constitution of Heat resisting cast steel of the present invention, except each is constituted the afore mentioned rules of element, also require the parameter value [P=89.3-78.4C+0.1Si-5.7Mn-1.7Cr+0.01Ni+2Nb+5.3Ti-36.5N-50 .8Ce] of aforementioned formula [1] to be adjusted to the one-tenth balance-dividing that satisfies P=20～45.This formula is according to the evaluation test of aging ductility [after 800 ℃ * 3000 hours the ageing treatment, measure extension at break] obtain experimentally, this parameter value P (=20～45) is as being used to keep creep rupture strength at high temperatures, and guarantees this high ductile condition of elongation at break 〉=20% after the timeliness and the value that obtains.The remarkable effect of improving aging ductility that obtains as utilizing this one-tenth balance-dividing adjustment can guarantee that as type device for producing hydrogen etc. on the spot fatigure failure becomes desired, the improved fatigue characteristic of load change type modifier reaction tubes of problem.

The modifier reaction tubes of refractory casting tube system of the present invention, utilize the centrifugal force casting to make cast tube, therefore the tubulation operation of specific heat plastic working is favourable significantly on cost, the casting body that makes, after implementing smart mechanical workout, can be used as that modifier constitutes that tubing adopts welding procedure and assembled.

Embodiment

Utilize the Ar compression ring border fusion of high-frequency induction calciner, found cast steel solution, adopt the casting of metal pattern centrifugal force, the foundry trial pipe with given composition.Pipe size (after the mechanical workout): external diameter 137 * wall thickness 20 * length 260 (mm).The test piece that cuts out from each test materials is carried out the microscopic examination of tension fracture test, repture test, fatigue life test and metal structure.Moreover, repture test is tested under as-cast condition, the test beyond the repture test is implemented to test after the ageing treatment in electric furnace.

Each steel composition of testing with material is shown in table 1, each test-results is shown in table 2.

＜I〉the timeliness stretching ductility

After rectangular test piece enforcement ageing treatment (800 ℃ * 3000 hours), make tensile test specimen, adopt stretching test measurement elongation at break according to JIS-Z2241.

Test piece shape: parallel portion diameter 8.75mm-4D

Test temperature: room temperature

The symbol on " the fracture ductility after the timeliness " hurdle is as follows in the table 2.

Zero ... elongation at break is more than 20%

* ... elongation at break end full 20%

＜II〉creep properties

Make test piece by each test with material, adopt according to the tensile creep tearing test of JIS-Z2272 measure rupture life (hour).

Test piece shape: parallel portion diameter 6mm, gauge length 30mm

Test temperature: 800 ℃

Tensile stress: 80MPa

＜III〉fatigue characteristic

Each test is implemented ageing treatment (800 ℃ * 1000 hours) with material makes test piece, adopt according to the following fatigue test of JIS-Z 2273 regulations measure damaged repeat number Nf (stress range reach maximum stress 75% before repeat number) as estimating fatigue lifetime.

The symbol on " fatigue characteristic " hurdle is as follows in the table 2.

Zero ... repeat number is more than 1000 times

* ... repeat number is less than 1000 times

Test piece shape: solid pole (diameter 10mm)

Test temperature: 800 ℃

Total deformation scope (ε t): ± 0.3%

Deformation velocity: 10 ^-1%/second (the C-C type is replied choppy sea)

Gauge length (G.L.): 15mm

(IV) observation of metal structure

Test piece after the grinding ageing treatment (800 ℃ * 3000 hours), electrolytic corrosion (corrosive fluid: the 10N potassium hydroxide aqueous solution), now examine inspection by microscope and have or not σ to separate out mutually.

In the comparative example of table 1 and table 2 (No.21-No.26), No.21 is the material that is equivalent to SCH13 (JIS-G5122), No.22 is the material that is equivalent to SCH22 (JIS-G5122), No.23 is SCH13+Nb, No.24 is SCH22+Nb, Ti, No.25 are that height contains the N material, and No.26 is the low Ti austenitic steel that contains C.

Example (No.1-No.12) is even stand the long timeliness of high temperature, there be not separating out of σ phase yet, structure stability is good, extension at break after the timeliness and life-span of creep rupture height, and have good fatigue characteristic, possess and be hopeful as the various characteristics of hydrogen manufacturing with the modifier reaction tubes of the load running type device of modifier reaction tubes material, particularly repeated thermal cycles.

On the other hand, see comparative example (No.21-No.26) again, No.21 (SCH13) and No.22 (SCH22), extension at break and life-span of creep rupture after the timeliness are low, and also be in low-level fatigue lifetime after the timeliness.

The No.23 conduct slightly improves though see the life-span of creep rupture after the timeliness based on the effect of the interpolation Nb of SCH13, and extension at break and fatigue characteristic after the timeliness are low.The No.24 conduct is based on the compound interpolation Nb of SCH22 and the effect of Ti, though the life-span of creep rupture after the timeliness significantly improves, but be accompanied by separating out of σ phase, ductility and fatigue characteristic after the timeliness also reduce, and lack the suitability as load change type modifier reaction tubes material.

No.25 contains the N effect as height, and the structure stability height of matrix does not have separating out of σ phase, but ductility after the timeliness and life-span of creep rupture are low, and fatigue characteristic also are in low-level.Though extension at break and fatigue characteristic after the No.26 timeliness are good,,, lack the high temperature of water vapour upgrading reaction tubes, the suitability of high-pressure applications so creep-rupture strength is low because parameter value P has broken away from set upper limit value of the present invention.

Table 1

No.	Chemical constitution (mass%) rest part Fe															Remarks
	Chemical constitution (mass%) rest part Fe																C	Si	Mn	P	S	Cr	Ni	Nb	Ti	Ce	N	Zr	B	La	Al
	1	0.39	0.45	0.63	0.014	0.009	20.0	14.8	0.52	0.12	0.05	0.027	-	-	-		C	Si	Mn	P	S	Cr	Ni	Nb	Ti	Ce	N	Zr	B	La	Al	-	Example
2	1	0.39	0.45	0.63	0.014	0.009	20.0	14.8	0.52	0.12	0.05	0.027	-	-	-	0.30	0.35	0.57	0.015	0.009	16.0	10.3	0.30	0.10	0.03	0.030	-	-	-	-		-
2	3	0.24	0.34	0.51	0.016	0.008	19.0	14.7	0.32	0.13	0.05	0.025	-	-	-	0.30	0.35	0.57	0.015	0.009	16.0	10.3	0.30	0.10	0.03	0.030	-	-	-	-	-
4	3	0.24	0.34	0.51	0.016	0.008	19.0	14.7	0.32	0.13	0.05	0.025	-	-	-	0.13	0.32	0.45	0.014	0.007	18.6	14.5	0.28	0.15	0.06	0.022	-	-	-	-	-
4	5	0.45	0.43	0.55	0.015	0.010	15.3	11.6	0.43	0.09	0.02	0.028	-	-	-	0.13	0.32	0.45	0.014	0.007	18.6	14.5	0.28	0.15	0.06	0.022	-	-	-	-	-
6	5	0.45	0.43	0.55	0.015	0.010	15.3	11.6	0.43	0.09	0.02	0.028	-	-	-	0.21	0.54	0.47	0.016	0.007	18.9	22.4	1.18	0.07	0.07	0.059	-	-	-	-	-
6	7	0.20	0.41	0.53	0.015	0.007	22.3	16.7	0.60	0.15	0.07	0.023	-	-	0.03	0.21	0.54	0.47	0.016	0.007	18.9	22.4	1.18	0.07	0.07	0.059	-	-	-	-	-
8	7	0.20	0.41	0.53	0.015	0.007	22.3	16.7	0.60	0.15	0.07	0.023	-	-	0.03	0.18	1.84	2.04	0.015	0.009	15.3	21.8	0.27	0.16	0.05	0.027	-	-	-	-	-
8	9	0.23	0.60	0.71	0.014	0.008	18.6	14.3	0.40	0.38	0.10	0.013	-	0.009	-	0.18	1.84	2.04	0.015	0.009	15.3	21.8	0.27	0.16	0.05	0.027	-	-	-	-	-
10	9	0.23	0.60	0.71	0.014	0.008	18.6	14.3	0.40	0.38	0.10	0.013	-	0.009	-	0.22	0.37	0.51	0.016	0.007	19.7	14.7	0.37	0.11	0.01	0.045	0.12	-	-	-	-
10	11	0.23	0.33	0.49	0.017	0.007	19.9	15.0	0.36	0.08	0.06	0.030	-	0.011	-	0.22	0.37	0.51	0.016	0.007	19.7	14.7	0.37	0.11	0.01	0.045	0.12	-	-	-	0.12
12	11	0.23	0.33	0.49	0.017	0.007	19.9	15.0	0.36	0.08	0.06	0.030	-	0.011	-	0.30	0.56	0.70	0.016	0.009	24.9	16.5	0.61	0.78	0.02	0.015	-	-	-	-	0.12
12	21	0.41	1.07	1.18	0.017	0.008	24.7	12.5	-	-	-	0.047	-	-	-	0.30	0.56	0.70	0.016	0.009	24.9	16.5	0.61	0.78	0.02	0.015	-	-	-	-	-	Comparative example
22	21	0.41	1.07	1.18	0.017	0.008	24.7	12.5	-	-	-	0.047	-	-	-	0.42	0.98	1.21	0.015	0.007	24.8	19.7	-	-	-	0.061	-	-	-	-	-
22	23	0.36	1.03	1.09	0.017	0.006	25.6	12.4	1.36	-	-	0.055	-	-	-	0.42	0.98	1.21	0.015	0.007	24.8	19.7	-	-	-	0.061	-	-	-	-	-
24	23	0.36	1.03	1.09	0.017	0.006	25.6	12.4	1.36	-	-	0.055	-	-	-	0.40	0.99	1.05	0.015	0.009	25.1	21.2	0.48	0.09	-	0.033	-	-	-	-	-
24	25	0.34	0.44	0.65	0.014	0.009	21.3	14.1	0.39	-	-	0.166	-	-	-	0.40	0.99	1.05	0.015	0.009	25.1	21.2	0.48	0.09	-	0.033	-	-	-	-	-
26	25	0.34	0.44	0.65	0.014	0.009	21.3	14.1	0.39	-	-	0.166	-	-	-	0.04	0.38	0.52	0.015	0.010	19.7	13.0	-	0.21	-	0.027	-	-	-	-	-

Table 2

No.	The parameter value of formula [1]	Have or not σ to separate out * 1 mutually after the timeliness	Fracture ductility * 2 after the timeliness	Creep life, (Hrs) * 3	Fatigue characteristic * 4 after the timeliness	Remarks
No.	The parameter value of formula [1]		Fracture ductility * 2 after the timeliness	Creep life, (Hrs) * 3	Fatigue characteristic * 4 after the timeliness	Remarks	1	20	○	○	3854	○	Example
2	34	○	○	2497	○		1	20	○	○	3854	○
2	34	○	○	2497	○	3	33	○	○	1680	○
4	43	○	○	1055	○	3	33	○	○	1680	○
4	43	○	○	1055	○	5	24	○	○	4337	○
6	35	○	○	1640	○	5	24	○	○	4337	○
6	35	○	○	1640	○	7	31	○	○	1708	○
8	36	○	○	1673	○	7	31	○	○	1708	○
8	36	○	○	1673	○	9	33	○	○	1561	○
10	35	○	○	1379	○	9	33	○	○	1561	○
10	35	○	○	1379	○	11	32	○	○	1472	○
12	25	○	○	3557	○	11	32	○	○	1472	○
12	25	○	○	3557	○	21	7	×	×	275	×	Comparative example
22	5	○	×	323	×	21	7	×	×	275	×
22	5	○	×	323	×	23	12	×	×	3017	×
24	10	×	×	3017	×	23	12	×	×	3017	×
24	10	×	×	3017	×	25	18	○	×	534	×
26	50	○	○	4	○	25	18	○	×	534	×

* 1: ageing treatment: 800 ℃ * 3000 hours, zero ... no σ separates out mutually, * ... there is σ to separate out mutually

* 2: ageing treatment: 800 ℃ * 3000 hours, zero ... elongation at break 〉=20%, * ... elongation at break＜20%

* 3: creep test ... 800 ℃ of temperature, loading 80MPa

* 4: ageing treatment: 800 ℃ * 1000 hours, zero ... fatigue lifetime 〉=10 ³Inferior, * ... fatigue lifetime＜10 ³Inferior

Industrial applicibility

Heat resisting cast steel of the present invention also has high-caliber ductility, life-span of creep rupture after the long timeliness of high temperature, has simultaneously improved fatigue properties. Therefore, be suitable as the medium-and-large-sized device for producing hydrogen of the petroleum refining factory of under the high-temperature pressurizing condition, turning round, fuel cell with the steam modifier reaction tube material of device for producing hydrogen, because fatigue properties are good especially, so be suitable as type device for producing hydrogen (hydrogen station etc.) on the spot, be attended by the load change type fuel cell of the repeated thermal cycles that the change of the operating load at daytime and night causes with the reaction tube material of device for producing hydrogen, alleviate the problem that cracks along with repeated thermal cycles of having eliminated, can steady in a long-term turn round.

Heat resisting cast steel of the present invention is owing to the Ni amount that has reduced high price, so also favourable on cost. Reaction tube is the centrifugal casting manufacturing, and is also favourable than the tubulation processing of adopting the plastic working mode economically, is the good material of practical value. In addition, heat resisting cast steel of the present invention also is suitable as the heat treatment furnace roller in the iron and steel manufacturing.

Claims

1. good heat-resistant cast steel for reaction tube for hydrogen production such as aging ductility and creep-rupture strength, it is characterized in that, by quality %, contain that C:0.1～0.5%, Si:2.5% are following, Mn:2.5% is following, Cr:15～26%, Ni:8～23%, Nb:0.1～1.2%, Ti:0.01～1.0%, Ce:0.001～0.15%, below the N:0.06%, all the other are essentially Fe, and the parameter value P that represents with following formula is 20～45.

P＝89.3-78.4C+0.1Si-5.7Mn-1.7Cr+0.01Ni+2Nb+5.3Ti-36.5N-50.8Ce

2. the described heat-resistant cast steel for reaction tube for hydrogen production of claim 1 wherein also contains and is selected from B:0.001～0.05%, Zr:0.01～0.5%, more than a kind and even 2 kinds of La:0.001～0.15%.

3. claim 1 or 2 described heat-resistant cast steel for reaction tube for hydrogen production wherein also contain Al:0.01～0.3%.

4. the described heat-resistant cast steel for reaction tube for hydrogen production of any one of claim 1～3, wherein C:0.1～0.3%.

5. the described heat-resistant cast steel for reaction tube for hydrogen production of any one of claim 1～4, wherein Cr:15～20%, Ni:8～18%.